UMLS:C0011849 - FACTA Search

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Query: UMLS:C0011849 (diabetes)
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A number of studies based on animal models of both diabetes and renal insufficiency have shown that adequately reducing blood pressure attenuates the progression of glomerulosclerosis and decreases urinary protein excretion. Furthermore, compared with conventional antihypertensive therapy, angiotensin converting enzyme (ACE) inhibitors show a greater benefit in reducing these parameters. Nineteen published animal studies have investigated the effects of calcium antagonists on renal hemodynamics and glomerulosclerosis, but only three of them have evaluated the use of calcium antagonists with models of diabetes. Of six micropuncture studies based on a 1 5/6 nephrectomy model of renal insufficiency, five demonstrated reduced efferent arteriolar resistance, two showed reduced glomerular capillary pressure (PGC), and two showed significantly reduced proteinuria and glomerulosclerosis. Studies using nifedipine with both the unilaterally nephrectomized DOCA salt rat model and the 1 5/6 nephrectomy model demonstrated reduced proteinuria and glomerulosclerosis that was independent of reduced PGC. Two separate micropuncture studies of the spontaneously hypertensive rat model also found reduced efferent arteriolar resistance and PGC as well as proteinuria. Finally, studies of Dahl "salt-sensitive" rats showed an early decrease in glomerulosclerosis without a significant change in either proteinuria or glomerulosclerosis after five weeks. The results of eleven clinical studies of diabetic patients have been published; they showed divergent effects of calcium antagonists on renal function and urinary protein excretion. In the various animal models, the divergent renal hemodynamic and histologic effects reported for calcium antagonists may be largely due to the equality of blood pressure reduction, the varied baseline hemodynamic profiles, and the divergent status of the renin-angiotensin system.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Renal effects of calcium antagonists in diabetes mellitus. An overview of studies in animal models and in humans. 191 Jun 42

1. To investigate atrial natriuretic factor (ANF) and its relationship to the renin system in diabetes, we measured plasma immunoreactive ANF and plasma renin activity (PRA) in 27 non-ketotic diabetic patients without evidence of cardiac or overt renal disease, and compared them with 26 age- and sex-matched normal subjects. 2. Diabetic patients were divided prospectively into poor (PGC, n = 14) or moderate (MGC, n = 13) glycaemic control depending on their concurrent plasma glycohaemoglobin (HbA1) levels (greater than 9% or less than 9%, respectively). Plasma ANF was elevated in PGC diabetic patients (15.7 +/- 1.8 fmol/ml, mean +/- SEM) compared with MGC diabetics (9.9 +/- 0.8 fmol/ml, P less than 0.001) and normal subjects (10.1 +/- 1.3 fmol/ml, P less than 0.05). 3. In contrast, PRA was lower in the PGC diabetic patients (1.3 +/- 0.3 pmol of angiotensin 1 h-1 ml-1) compared with the other groups (2.5 +/- 0.5 and 2.1 +/- 0.2 pmol of angiotensin I h-1 ml-1, P less than 0.05). Diabetic groups had proportionally more patients with high prorenin values (over 30 ng h-1 ml-1) than the normal group, but there was no difference between the diabetic groups. 4. Among the diabetic patients, ANF was directly related to HbA1 (r = 0.49, P less than 0.005) and urinary albumin excretion (r = 0.40, P less than 0.02), and was inversely related to PRA (r = 0.36, P less than 0.04) and plasma creatinine (r = -0.42, P less than 0.02).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Increased plasma atrial natriuretic factor and reduced plasma renin in patients with poorly controlled diabetes mellitus. 252 63

We evaluated the influence of increased dietary protein intake on glomerular structure and function in Lewis rats made diabetic with streptozotocin. We found that diabetic animals on a 20% or 50% protein diet ate approximately 50% more protein and excreted about 50% more urinary urea nitrogen than did their respective similarly-fed nondiabetic controls. The 50% protein diet was associated with higher glomerular filtration rates (GFR) and renal blood flows (RBF) at two months in both diabetic and control animals compared to their respective controls on the lower protein diet. However, GFR and RBF were not significantly higher in the diabetic animals on the 50% protein diet in the controls on the 20% diet and were slightly, albeit not significantly lower than controls on the 50% diet. Glomerular capillary pressure (PGC) tended to be lower in the diabetic compared to their respective controls, while the high protein diet was associated with higher PGC in diabetic and nondiabetic animals. The PGC in the 50% diabetic rats was not different from the PGC in the nondiabetic rats. Urinary albumin excretion (UAE) rate was greater in the diabetic than in the nondiabetic animals. UAE was greatest in the high protein diabetic animals at six months. Glomerular basement membrane thickness after six months of diabetes was increased essentially equally in both normal and high-protein fed diabetic groups and was largely uninfluenced by diet in the controls. Fractional mesangial volume was increased and relative filtration surface was decreased only in the 50%-protein diet diabetic rats at six months. Thus, high protein diet was associated with increased fractional mesangial volume in diabetic rats, but this could not be explained by increased glomerular capillary flows or pressures. The mechanism of acceleration of mesangial expansion by high protein diet in diabetic animals was not elucidated by these studies.
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PMID:Effects of dietary protein content in streptozotocin-diabetic rats. 278 23

Reduction in functioning nephron number leads to progressive renal disease. A haemodynamic basis for this process has been suggested by studies of partially nephrectomized rats. In this model compensatory hyperfiltration in the remnant nephrons due to increases in the glomerular capillary hydraulic pressure (-PGC) and plasma flow rate is associated with eventual glomerular sclerosis. Therapeutic attenuation of these haemodynamic adaptations protects against glomerular injury. One such therapy is angiotensin converting enzyme (ACE) inhibition, which lowers systemic blood pressure and -PGC and prevents sclerosis in rats with renal ablation, as well as in the hyperfiltering kidneys of normotensive rats with diabetes mellitus. Control of -PGC with ACE inhibitor is also protective even when therapy is delayed until systemic hypertension and glomerular injury are established. In contrast, the control of systemic hypertension but not -PGC affords no protection in remnant kidney rats. Thus, control of glomerular hypertension slows the progression of renal disease.
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PMID:The role of intraglomerular pressure in the initiation and progression of renal disease. 303 76

From the above discussion it is clear that many factors have been invoked in the pathogenesis of progressive glomerular injury. Those which are most important include increased PGC, coagulation, serum lipid abnormalities, and hypertrophy. Although many hemodynamic alterations have been identified, increased PGC was noted most constantly. Furthermore, the loss of autoregulatory capability which was observed in some models with progressive glomerulosclerosis usually resulted in increased PGC. Increased PGC has been associated with augmented dietary protein and is seen in the Munich-Wistar rat made diabetic. Such an increase in PGC could cause direct mechanical injury to endothelial and epithelial cells, as well as be responsible for increased mesangial traffic of macromolecules with the potential for stimulating cellular proliferation and mesangial matrix increase. Additional support for the importance of increased PGC is provided by the protective effect of decreasing PGC with CEI therapy and anemia, and by the enhanced autoregulatory capability in both the Milan and Okamoto hypertensive rats. The significance of coagulation factors is confirmed by the formation of platelet and fibrin thrombi in the development of the glomerular lesions. The sequence of glomerular injury suggests that endothelial damage occurs with subsequent formation of platelet aggregates as a response to this injury. Formation of platelet aggregates may be associated with the production of substances potentially injurious to the endothelial cells. Although blocking the appearance of such thrombi by administration of heparin or thromboxane synthetase inhibitor prevents glomerular injury, the blood pressure lowering effect of these agents complicates the interpretation of the studies. Serum lipid abnormalities are also important factors in the progression of nonimmunologic glomerular injury. Such abnormalities are observed with increased dietary phosphorus or lipid, in the obese Zucker rat, and in rats with diabetes mellitus. Reduction in serum cholesterol by administration of clofibric acid or mevinolin diminishes glomerular injury independent of alterations in glomerular hemodynamics. The possible link between increased serum lipids and augmentation of glomerular injury is at present indirect. The importance of hypertrophy as a contributing factor to the progression of nonimmunologic glomerular injury is suggested by several lines of evidence. Hypertrophy, with increase in glomerular size and caliber of capillary loops, may amplify the effect of increased PGC by further intensifying the tension and mechanical stress on all elements of the capillary wall.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Nonimmunologic mechanisms of glomerular injury. 305 12

To assess the extent to which the progression of diabetic retinopathy can be arrested by improved glycemic control, 35 normal dogs were randomly divided into a nondiabetic and three alloxan-induced diabetic groups prospectively identified according to glycemic control: poor control for 5 yr (PC), good control for 5 yr (GC), and poor control for 2.5 yr followed by good control for 2.5 yr (PGC). To achieve good control, insulin was given twice daily together with a measured diet so that hyperglycemia and glucosuria were mild and infrequent, and HbA1 was comparable to normal. Retinal capillary aneurysms and other lesions developed during 60 mo of poor control (group PC) and were inhibited if good control was begun promptly within 2 mo (group GC). In group PGC, retinopathy was absent or equivocal at 2.5 yr of poor control and, surprisingly, was found to develop subsequently despite good glycemic control. Retinopathy in group PGC was greater at autopsy than at 2.5 yr and was greater than in group GC. The results indicate that retinopathy may be preventable but tends to resist arrest even in its incipient stages, before more than the first few aneurysms have appeared.
Diabetes 1987 Jul
PMID:Progression of incipient diabetic retinopathy during good glycemic control. 355 80

GFR and, to a lesser extent, RPF are elevated soon after the onset of human diabetes mellitus. The mechanisms involved in these functional changes are unknown. Since the experimental diabetic rat has renal morphological changes similar to those observed in man, we investigated whole-kidney and superficial-nephron glomerular function in this animal model early during the course of the disease. Alloxan-induced diabetes (50 mg/kg BW) is frequently characterized by severe hyperglycemia and retarded body growth. Supplemental insulin administration (6 U of NPH insulin daily) results in normal body growth, although hyperglycemia persists. As a result, we studied four groups of diabetic rats (1) after 1 month of untreated diabetes, (2) after 3 months of untreated diabetes, (3) after 3 months of untreated diabetes followed by 1 month of insulin supplementation, and (4) after 3 months of insulin-supplemented diabetes. After 1 month of untreated diabetes, GFR and SNGFR each declined by 20% compared to age-matched control rats. RPF and SNGFR were both reduced by 33% as a consequence of a 41% increase in RT. Reduced SNGPF together with a 7 mm Hg reduction in PGC caused the fall in GFR and SNGFR. KWs were not significantly different from those of control rats. The functional changes that occurred after 1 month of untreated diabetes did not significantly deteriorate after 3 months of the disease. Insulin supplementation, when instituted for 1 month after 3 months of untreated diabetes, produced no significant improvement in either whole-kidney or superficial-nephron hemodynamics even though body and kidney growth were stimulated. In contrast, insulin supplementation initiated at the onset of diabetes increased both SNGFR and SNGFR to 23% above control values. GFR and RPF each increased in proportion to the 18% increment in kidney size. RT was reduced in these rats, and the pressures that govern glomerular ultrafiltration were not altered from control values. We conclude that in untreated diabetic rats, an increase in RT is the predominant hemodynamic alteration which produces reduced glomerular hemodynamic function. Once established, this defect may not be reversed with 1 month of insulin supplementation. In contrast, small doses of insulin initiated at the onset of diabetes result in renal hypertrophy and proportionate increases in GFR and RPF with a reduction in RT.
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PMID:Determinants of glomerular filtration and plasma flow in experimental diabetic rats. 703 Nov 54

The long-term effects of different antihypertensive regimens were studied in uninephrectomized beagles with alloxan-induced diabetes mellitus. Mean arterial pressure (MAP) was elevated (P < 0.05) in untreated diabetic dogs. Treatment of diabetic dogs with an angiotensin converting enzyme inhibitor (ACEI; lisinopril), a calcium antagonist (CA;TA-3090), or both lowered MAP. At one year, the RBF, GFR, and SNGFR were similarly elevated (P < 0.05) in all groups of diabetic dogs. The increase in SNGFR present in untreated diabetic dogs was primarily attributable to an increased (P < 0.05) glomerular capillary pressure (PGC). Treatment with lisinopril lowered the PGC to a mean value that was indistinguishable from that for nondiabetic dogs. In contrast, diabetic dogs treated with TA-3090 had an elevated PGC. While untreated diabetic dogs exhibited marked increases in glomerular volume (P < 0.05 vs. nondiabetic dogs), treatment with lisinopril and TA-3090, either alone or in combination, blunted the extent of glomerular hypertrophy observed in diabetic dogs (P < 0.05 vs. untreated diabetic dogs). Proteinuria was similarly reduced (P < 0.05 vs. untreated diabetic dogs) in dogs treated with lisinopril and TA-3090. Combination therapy of diabetic dogs produced a further significant (P < 0.05) decrement in proteinuria. We conclude that although treatment of diabetic dogs with either lisinopril or TA-3090 results in differential effects on PGC; each produces a similar decrement in proteinuria. Further, combination therapy has a greater effect on proteinuria than either agent alone.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Long-term effects of antihypertensive regimens on renal hemodynamics and proteinuria. 839 Oct 95

Desmopressin (DDAVP), an AVP.V2-receptor agonist, evokes endothelium-dependent relaxation (EDR) due to nitric oxide (NO), EDR factor (EDRF) in the systemic vasculature, and glomerular afferent arterioles via AVP receptor(s). Glyceryl trinitrate (GTN) causes endothelium-independent (nonreceptor-mediated) vasodilation. We elucidated the possible involvement of EDRF in early non-insulin-dependent diabetes mellitus (NIDDM) and glomerular hyperfiltration (GHF) by DDAVP and GTN infusions. Patients with advanced DM nephropathy (DM.Np) (n = 7) were also examined. DDAVP and GTN decreased the mean blood pressure in DM with GHF (DM + GHF) and without GHF (DM-GHF) greater than that in normal subjects (N), without any difference in the heart rate changes in any group. Plasma levels of cGMP, a cellular messenger of NO, were significantly increased by DDAVP and GTN with a similar increment in each group. DDAVP caused a significant increase in urinary cGMP excretion in each group with a similar increment in each group. However, it caused a transient increase in creatinine clearance only in DM + GHF although GTN did not, and an exaggerated excretion of urinary albumin in early NIDDM, especially in DM+GHF, without a change in beta 2-microglobulin excretion. In contrast, in DM.Np GTN caused a decrease in blood pressure and an increase in plasma cGMP levels, but DDAVP did not. In conclusion, in peripheral vasculature and kidney, an enhanced sensitivity of vascular smooth muscle to NO is present in early NIDDM. The exaggerated dilation of glomerular afferent arterioles by preferentially produced NO in in situ, which causes a rise in PGC, might be partly responsible for the glomerular hyperfiltration and subsequently the increase in the glomerular protein permeation of DM+GHF. However, in peripheral blood vessels of DM.Np EDR is impaired. Thus, EDR seems to change with the development of NIDDM.
J Diabetes Complications
PMID:Endothelium-dependent relaxation in peripheral vasculature and kidney of non-insulin-dependent diabetes mellitus. 857 27

Glomerular hyperfiltration has long been recognized in insulin-dependent diabetes, and has been more recently recognized in patients with non-insulin dependent diabetes mellitus as well. Experimentally, glomerular hyperfiltration has been shown to result from elevations in the glomerular capillary blood flow and the glomerular capillary hydraulic pressure (PGC). Of the hemodynamic determinants of hyperfiltration, it is glomerular hypertension that is most damaging to the glomerulus. Experimental and clinical studies have confirmed that antihypertensive agents that lower PGC more consistently slow the progression of injury than do those that fail to control glomerular hypertension. The pathogenesis of diabetic hyperfiltration is multifactoral. Many mediators have been proposed, including changes due to the altered metabolic milieu, and alterations in endogenous levels of such vasoactive mediators as atrial natriuretic peptide, endothelial-derived relaxing factor, angiotensin II, prostaglandins, thromboxanes, and kinins, among others. It has more recently been suggested that local renal tissue levels, rather than circulating levels, play the more profound role in hemodynamic regulation. For example, the renin-angiotensin system (RAS) appears to be disproportionately active in the renal tissue, potentially explaining the renal vascular responsiveness to angiotensin-converting enzyme inhibition despite absence of systemic RAS activation. Little is yet known of the mechanisms by which glomerular hypertension leads to injury. Innovative new in vitro systems have been developed to address this question. These studies postulate that glomerular hemodynamic factors (shear stress, pulsatile flow) modify the growth and activity of glomerular component cells, inducing the expression of cytokines and other mediators, which then stimulate matrix production and promote structural injury.
J Diabetes Complications
PMID:Current concepts of renal hemodynamics in diabetes. 857 53

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